Sentences with phrase «phonon interaction»
Dresselhaus has investigated this very fundamental electron — phonon interaction in nanostructures using the powerful techniques of Raman and Resonance Raman spectroscopy.
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Recent studies indicate that the stronger the spin - phonon interaction is, the more favorable it is in the development of new materials — such as a multiferroic material, for example — in which the coupling of magnetism and the lattice system has great importance.
Theoretical analysis indicates that KxC60 is a strong coupling superconductor, and we suggest that the enhanced electron - phonon interaction is related to the unique hybridization of the C sp - derived states.
«The next step will be investigation of the spin - phonon interaction in nanoscale thin films and structures made of this important antiferromagnetic material.»
The mechanism for superconductivity is hence predominantly electronic and magnetic, although weak phonon interactions may favor the state.
The comparison revealed that electron - phonon interactions alone did not accurately predict the orientation of the crystal.
Like other interactions, electron - phonon interactions within atoms - thick crystals of black phosphorus are anisotropic and, once measured, have been used to predict the orientation of the crystal.
THE 2012 KAVLI PRIZE IN NANOSCIENCE is awarded to Mildred Dresselhaus «for her pioneering contributions to the study of phonons, electron - phonon interactions, and thermal transport in nanostructures.»
Professor Arne Skjeltorp, of the University of Oslo, and chairman of the Kavli Nanoscience Prize Committee, said that, while an award could have been made for Professor Dresselhaus» work in the field as a whole, members of the committee wanted to honor her for her specific advances in the study of phonons, electron - phonon interactions, and thermal transport in nanostructures.
Professor Arne Skjeltorp, of the University of Oslo, and chairman of the Kavli Nanoscience Prize Committee, said that, while an award could have been made for Professor Dresselhaus» work in the field as a whole, members of the committee wanted to honour her for her specific advances in the study of phonons, electron - phonon interactions and thermal transport in nanostructures.
The Kavli Prize in Nanoscience is given to Mildred S. Dresselhaus, Massachusetts Institute of Technology, USA, «for her pioneering contributions to the study of phonons, electron - phonon interactions, and thermal transport in nanostructures.»
«for her pioneering contributions to the study of phonons, electron - phonon interactions, and thermal transport in nanostructures»
Not exact matches
They are investigating the interaction between single photons (the fundamental quantum unit of light) and single phonons (the fundamental quantum unit of sound).
Practical applications of spintronic devices in information processing require accurate knowledge of the strength of the electron spin interaction with phonons.
Spin - phonon coupling directly represents the strength of interaction between magnetism (spin) and the crystal lattice system (phonon).
We study the phonons and their interactions with other exciations (electron, spin, magnon, other phonons) and nanostructures in materials.
She investigated and helped explain the fundamental interactions between electrons and phonons in nanostructures, and by the year 2000 was able to isolate the Raman spectra from individual nanotubes.
Dresselhaus receives the prize for her research into uniform oscillations of elastic arrangements of atoms or molecules called phonons, phonon - electron interactions and heat conductivity in nanostructures.